DE2720751B2 - Arrangement for internal exposure measurement in single-lens reflex cameras - Google Patents

Description

The invention relates to an arrangement for measuring internal exposure in single-lens reflex cameras, wherein the light penetrating the taking lens to the viewfinder eyepiece via a viewfinder mirror is fed during the exposure process interrupts the viewfinder inspection.

In known cameras of this type, the photoelectric converter is illuminated via the viewfinder mirror, but when it comes to camera solving

is pivoted so that the photoelectric converter no longer receives measuring light Exposure times to adjust the brightness during the photographic recording are therefore complex electrical circuit arrangements are provided, soft the exposure value measured before the camera is released save for the duration of the exposure process for the photographic recording. Furthermore is known to use the edge zone of the picture window for the arrangement of a light-sensitive cell. However, this arrangement claims too large edge zones, which reduces the size of the image window is affected. Furthermore, unwanted and uncontrollable reflection phenomena occur on the Front of the photoelectric cell. It has also been proposed to use a taking lens to form facing and the image window surrounding edge zone as a concave mirror, its optical Axis is inclined with respect to the optical axis of the taking lens and part of the Taking the lens of penetrating light on a fotoelek Irish converter directs. Only the Edge zones of the desired photographic image are measured, which may then lead to false exposures can lead if the light and shadow proportions prevailing in the edge zones are extremely different of the light and shadow parts of the overall picture. In known arrangements with rigid partially transparent viewfinder mirrors, which are also narrow in the exposure beam during the exposure process. ng remain, must be the reflectivity of the Sikher mirror be so large that a sufficiently bright viewfinder image is achieved; but it will be to the same great extent Weak recording light.

The object of the invention is to avoid the above disadvantages by means of an improved arrangement for Illumination of the photoelectric converter.

According to the invention this is achieved in that in addition to the beam path of the taking lens Finder mirror a partially transparent and the photoelectric control cell illuminating measuring mirror between the viewfinder of the viewfinder mirror and the image window are rigidly arranged and in a smaller one Angle to the image window is inclined than the viewfinder mirror. The measuring mirror is useful as Foil mirror formed. According to an advantageous arrangement is in front of the photoelectric control cell collecting measuring optics at the imaging distance from the imaging plane caused by the measuring mirror arranged. According to a further embodiment, the above object is achieved in that a first Photoelectric (information) cell through the viewfinder mirror in its viewfinder and a second photoelectric (control) cell can be illuminated by the measuring mirror during the exposure process, with a measuring circuit with indicator for exposure times on the first cell and a control circuit on the second cell is connected to limit the open time of the camera shutter. According to the invention, a Solution is also achieved by mounting a photoelectric cell pivotably and alternately on a circuit board is pivotable in the reflection beam path of the viewfinder mirror and that of the measuring mirror and that in Depending on this pivoting movement, a switch to alternately switch on the photoelectric Cell when illuminated through the viewfinder mirror on a measuring circle with indicator for exposure times or when illuminated by the measuring mirror to one

Control circuit for limiting the open time das Camera shutter is operable. According to an advantageous arrangement, the board has a di; m viewfinder mirror geared connected.

The invention is illustrated in the illustrated and described exemplary embodiments, the exposure metering device is built into a single lens reflex camera. It shows

F i g. 1 shows an arrangement with first (information) cells and other (control) cells and ι u

F i g. 2 shows an arrangement with a pivotable cell.

The pivotable viewfinder mirror 2, which can be moved alternately into the viewfinder position and into the recording position 2 ', is mounted in the camera housing 1 (see FIG. 1), which is not specifically shown. The light beams penetrating the taking lens 3 are guided from the viewfinder mirror 2 via the prism 4 to the eyepiece 5. Behind the teilverspieg: soldering surface 15 of the prism 4, the measuring prism 16 is arranged with the photoelectric cell information 17, which is m aligeschlossen to a galvanometer 18; The scale 19 with values for exposure times is arranged opposite the pointer of the galvanometer 18. The image window 9 is arranged in front of the film 7 and the shutter 8 in the direction of light. In front of it is the slightly (approximately 15%) partially mirrored measuring mirror 6, Jer is inclined at the angle ε with respect to the film 7. The measuring mirror 6 is a foil mirror! formed and clamped in the frame 21. The angle of inclination ε of the measuring mirror 6 with respect to the image window 9 is smaller than that of the viewfinder mirror 2 in the viewfinder position. The photoelectric control cell 11 (preferably a low-inertia photodiode) can be illuminated by the measuring mirror 6 and is electrically connected in a known manner to an exposure time circuit 10, the π control magnet 12 of which limits the opening time of the shutter 8. In front of the photoelectric control cell 11, the collecting optics 13 are arranged, which capture the image of the object being photographed in the plane 1. The image mask 14 assigned to the collecting optics 13 and attached to the -to front surface of the photoelectric control cell 11 vignets the image of the object being photographed in accordance with the size of the image window 9.

The mode of operation of the new arrangement is as follows:

lh the search :: rstellung of the viewfinder mirror 2 is of the taking lens directed 3 penetrating the optical path in the prism 4 so that the photographing can be viewed through the eyepiece 5, the viewfinder image, and ^r> o photoelectric information cell 17 is illuminated. As a result of pointer deflection of the tracery 18 is photographed in a position to be read with reference to the time scale 19, the exposure time that is π at the given brightness after triggering the Verschlus- ses will result. After triggering the camera, the viewfinder mirror 2 is pivoted into the recording position 2 'and thus the illumination of the image window 9 with the measuring mirror arranged in front of it! 6 released. As a result, the illumination of the information cell 17 t> o is interrupted, but the photoelectric control cell 11 is illuminated. With the opening movement of the shutter 8, the exposure of the film begins 7. By the time circuit 10 is triggered via the control magnet 12, the closing movement of the shutter 8 and <>^r> thereby ending the exposure of the film 7 brightness requirements.

In the embodiment according to FIG. 2 is again in the camera housing 1 (not shown in particular) mounted pivotable viewfinder mirror 2, which alternates between the viewfinder position and the recording position 2 ' is movable. The light beams penetrating the taking lens 3 are transferred from the viewfinder mirror 2 the prism 4 passed to the eyepiece 5. This is behind the partially mirrored surface 15 of the prism 4 Measuring prism 16 is arranged with the photoelectric cell 17, which is connected to a galvanometer 18 is, the pointer of the galvanometer 18 opposite is the scale 19 with values for exposure times. In Light direction in front of the film 7 and the shutter 8, the image window 9 is arranged. In front of it is the slightly (approximately 15%) partially mirrored measuring mirror 6, which is inclined at the angle ε with respect to the film 7. The measuring mirror 6 is designed as a film mirror and is clamped in the frame 21. The angle of inclination ε of the measuring mirror opposite the image window 9 is smaller than that of the viewfinder mirror 2 in the viewfinder position.

The photoelectric cell 20 (preferably a low inertia photodiode) is on a pivotable Plate 24 is arranged and is thereby pivotable away from the measuring prism 16 into a control position 20 ', in which the photoelectric cell 20 can be illuminated by the measuring mirror 6; through those attached to the board 24 Umscnalt contacts 23 is the photoelectric cell 20 alternately to the galvanometer 18 or to the Exposure time circuit 10 can be switched on, the control magnet 12 of which controls the opening time of the shutter 8 limited. In front of the cell 20 located in the control position 20 ', the collecting optics 13 is arranged, which the in level 1 resulting image of the subject is detected. The one assigned to the collecting optics 13 and an image mask 14 attached to the front surface of the photoelectric cell 20 vignets the image of the The subject to be recorded corresponds to the size of the image window 9.

The new arrangement works as follows:

In the viewfinder setting of the viewfinder mirror 2, the beam path penetrating the taking lens 3 becomes guided into the prism 4 so that the photographer can view the viewfinder image through the eyepiece 5, and the photoelectric information cell 20 is illuminated. As a result of the pointer deflection of the measuring mechanism 18 the photographer is able to read off the exposure time on the basis of the time scale 19, which is at the given brightness after releasing the shutter.

After triggering the camera, the viewfinder mirror 2 is pivoted into the recording position 2 'and thus the Illumination of the image window 9 with the measuring mirror 6 arranged in front of it is released. About the Coupling rod 22 is pivoted together with the viewfinder mirror 2, the board 24. As a result, the photoelectric cell 20 is moved into the control position 20 ', while the photoelectric cell 20 is electrically from Galvanometer 18 separated and connected to the exposure time circuit 10. With the opening movement of the shutter 8, the exposure of the film 7 begins. The timing circuit 10 controls the control magnet 12 triggers the closing movement of the shutter 8 and thus the exposure of the film 7 Finished in accordance with the brightness. When the viewfinder mirror 2 returns to the viewfinder position, it is pivoted of the circuit board 24, the photoelectric cell 20 is separated from the exposure time circuit 10 and again to the Galvanometer 18 connected.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Arrangement for internal exposure measurement in single-lens reflex cameras, whereby the The light penetrates the viewfinder eyepiece via a swiveling viewfinder mirror is supplied, which interrupts the viewfinder inspection during the exposure process, characterized in that in the beam path of the Taking lens (3) in addition to the viewfinder mirror (2) a partially transparent and the photoelectric one (Control) cell (11) illuminating measuring mirror (6) between the viewfinder position of the viewfinder mirror (2) and the picture window (9) arranged rigidly and at a smaller angle with respect to the picture window (9) is inclined than the viewfinder mirror. 2. Arrangement according to claim 1, characterized in that the measuring mirror (6) as in one Frame (20) clamped film mirror is formed. 3. Arrangement according to claim 1, characterized in that in front of the photoelectric (control) cell (11) a collecting optical measuring system (13) at the imaging distance from that caused by the measuring mirror (6) Imaging plane (1) is arranged. 4. Arrangement according to claim 3, characterized in that the front side of the (Steiier) Zclle (U) is covered by an image mask (14), which the front of the (control) cell (11) according to the The size of the image window (9) is limited. 5. Arrangement according to claim 1, characterized in that a first photoelectric (information) cell (17) through the viewfinder mirror (2) in its viewfinder and a second photoelectric (Control) cell (11) can be illuminated by the Mcßspicgcl (6) during the exposure process, a measuring circuit attached to the (information) cell (17) with indicator (18) for exposure times (19) and to the (control) cell (11) a control circuit for the Limitation of the open time of the camera shutter (8) is connected. 6. Arrangement according to claim 1, characterized in that a photoelectric cell (20) on one Board (24) pivoted and alternately in the reflection beam path of the viewfinder mirror (2) and that of the measuring mirror (6) is pivotable and that is dependent on this pivoting movement Changeover contacts (23) for alternately switching on the photoelectric cell (20) when it is illuminated through the viewfinder mirror (2) to a measuring circle with an indicator for exposure times or for lighting through the measuring mirror (6) to a control circuit for limiting the open time of the camera shutter (8) can be actuated. 7. Arrangement according to claim 6, characterized in that the board (24) with the viewfinder mirror (2) is gear-connected.